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Southern Ocean Palaeoceanography from Thalassiothrix antarctica deposits

Southern Ocean Palaeoceanography from Thalassiothrix antarctica deposits
Southern Ocean Palaeoceanography from Thalassiothrix antarctica deposits

Ocean Drilling Program (ODP) Leg 177 recovered laminated diatom mats (LMD) deposited across the modern APF throughout the Plio-Pliestocene.  A critical component of LDM is the presence of the long, pennate diatom Thalassiothrix antarctica at the 5% relative abundance level or greater.  Their occurrence throughout the Plio-Pliestocene tracks the long term position of the APF and accumulation rates of LDM deposits can reach 45cm kyr-1. Scanning electron microscopic analysis of the fine lamination reveals a sequence of contrasting deposits which agree well with the seasonally varying diatom assemblages across the Antarctic Circumpolar Current (ACC) as sampled by the USJGOFS-AESOPS sediment trap array.  As a result sedimentation rates based on this annual sedimentation model of LDM can be locally as high as 55-80cm kyr-1.  There is no evidence of along bottom sediment focusing, but focusing in the water column could still be a contributing factor to such high pelagic sedimentation rates.

Pooling all the available data on T. antarctica water column observations, concentration in sediment trap samples from the USJGOFS-AESOPS program, and abundance in sediment cores from ODP Leg 177 and others, it becomes evident that LDM can potentially track both the position of the APF as well as the stabilizing effect on the surface waters of meltwater runoff near the ice edge.  T. antarctica is an eurythermal diatom and as such offers a temperature-independent proxy for the past position of the APF and potentially the seasonal ice zone. Provided sediment cores are monitored for LDM and T. antarctica, this new proxy can help resolve the question whether APF and surface isotherms decouple on glacial/interglacial timescales.  If interpretations of the limited data are correct, the spatial and temporal distribution of LDM and T. antarctica can be used to determine the areal extent of deep circumpolar water exposed to the atmosphere.

University of Southampton
Grigorov, Ivo
029a4051-ae71-48bd-a55f-01e6c27a91da
Grigorov, Ivo
029a4051-ae71-48bd-a55f-01e6c27a91da

Grigorov, Ivo (2004) Southern Ocean Palaeoceanography from Thalassiothrix antarctica deposits. University of Southampton, Doctoral Thesis.

Record type: Thesis (Doctoral)

Abstract

Ocean Drilling Program (ODP) Leg 177 recovered laminated diatom mats (LMD) deposited across the modern APF throughout the Plio-Pliestocene.  A critical component of LDM is the presence of the long, pennate diatom Thalassiothrix antarctica at the 5% relative abundance level or greater.  Their occurrence throughout the Plio-Pliestocene tracks the long term position of the APF and accumulation rates of LDM deposits can reach 45cm kyr-1. Scanning electron microscopic analysis of the fine lamination reveals a sequence of contrasting deposits which agree well with the seasonally varying diatom assemblages across the Antarctic Circumpolar Current (ACC) as sampled by the USJGOFS-AESOPS sediment trap array.  As a result sedimentation rates based on this annual sedimentation model of LDM can be locally as high as 55-80cm kyr-1.  There is no evidence of along bottom sediment focusing, but focusing in the water column could still be a contributing factor to such high pelagic sedimentation rates.

Pooling all the available data on T. antarctica water column observations, concentration in sediment trap samples from the USJGOFS-AESOPS program, and abundance in sediment cores from ODP Leg 177 and others, it becomes evident that LDM can potentially track both the position of the APF as well as the stabilizing effect on the surface waters of meltwater runoff near the ice edge.  T. antarctica is an eurythermal diatom and as such offers a temperature-independent proxy for the past position of the APF and potentially the seasonal ice zone. Provided sediment cores are monitored for LDM and T. antarctica, this new proxy can help resolve the question whether APF and surface isotherms decouple on glacial/interglacial timescales.  If interpretations of the limited data are correct, the spatial and temporal distribution of LDM and T. antarctica can be used to determine the areal extent of deep circumpolar water exposed to the atmosphere.

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More information

Published date: 2004

Identifiers

Local EPrints ID: 465474
URI: http://eprints.soton.ac.uk/id/eprint/465474
PURE UUID: 5acda039-7f10-4aec-bde8-88f46fca2b7c

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Date deposited: 05 Jul 2022 01:18
Last modified: 05 Jul 2022 01:18

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Contributors

Author: Ivo Grigorov

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